## $Id: batching.py 14053 2016-08-05 14:06:31Z henrik $ ## ## Copyright (C) 2011 Uli Fouquet & Henrik Bettermann ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program; if not, write to the Free Software ## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ## """Batch processing components for student objects. Batch processors eat CSV files to add, update or remove large numbers of certain kinds of objects at once. Here we define the processors for students specific objects like students, studycourses, payment tickets and accommodation tickets. """ import grok import unicodecsv as csv # XXX: csv ops should move to dedicated module. from time import time from datetime import datetime from zope.i18n import translate from zope.interface import Interface from zope.schema import getFields from zope.component import queryUtility, getUtility, createObject from zope.event import notify from zope.catalog.interfaces import ICatalog from hurry.workflow.interfaces import IWorkflowState, IWorkflowInfo from waeup.kofa.interfaces import ( IBatchProcessor, FatalCSVError, IObjectConverter, IUserAccount, IObjectHistory, VALIDATED, REGISTERED, IGNORE_MARKER) from waeup.kofa.interfaces import IKofaUtils, DuplicationError from waeup.kofa.interfaces import MessageFactory as _ from waeup.kofa.students.interfaces import ( IStudent, IStudentStudyCourse, IStudentStudyCourseTransfer, IStudentUpdateByRegNo, IStudentUpdateByMatricNo, IStudentStudyLevel, ICourseTicketImport, IStudentOnlinePayment, IStudentVerdictUpdate) from waeup.kofa.payments.interfaces import IPayer from waeup.kofa.students.workflow import ( IMPORTABLE_STATES, IMPORTABLE_TRANSITIONS, FORBIDDEN_POSTGRAD_TRANS, FORBIDDEN_POSTGRAD_STATES) from waeup.kofa.utils.batching import BatchProcessor class StudentProcessor(BatchProcessor): """The Student Processor imports student base data. In create mode no locator is required. If no `student_id` is given, the portal automatically assigns a new student id. In update or remove mode the processor uses either the `student_id`, `reg_number` or `matric_number` to localize the student object, exactly in this order. If `student_id` is given and an object can be found, `reg_number` and `matric_number` will be overwritten by the values provided in the import file. If `student_id` is missing, `reg_number` is used to localize the object and only `matric_number` will be overwritten. `matric_number` is used as locator only if both `student_id` and `reg_number` are missing. `student_id` can't be changed by the batch processor. There are two ways to change the workflow state of the student, an unsafe and a safe way. The safe way makes use of workflow transitions. Transitions are only possible between allowed workflow states. Only transitions ensure that the registration workflow is maintained. **Always prefer the safe way!** """ grok.implements(IBatchProcessor) grok.provides(IBatchProcessor) grok.context(Interface) util_name = 'studentprocessor' grok.name(util_name) name = _('Student Processor') iface = IStudent iface_byregnumber = IStudentUpdateByRegNo iface_bymatricnumber = IStudentUpdateByMatricNo factory_name = 'waeup.Student' @property def available_fields(self): fields = getFields(self.iface) return sorted(list(set( ['student_id','reg_number','matric_number', 'password', 'state', 'transition'] + fields.keys()))) def checkHeaders(self, headerfields, mode='create'): if 'state' in headerfields and 'transition' in headerfields: raise FatalCSVError( "State and transition can't be imported at the same time!") if not 'reg_number' in headerfields and not 'student_id' \ in headerfields and not 'matric_number' in headerfields: raise FatalCSVError( "Need at least columns student_id or reg_number " + "or matric_number for import!") if mode == 'create': for field in self.required_fields: if not field in headerfields: raise FatalCSVError( "Need at least columns %s for import!" % ', '.join(["'%s'" % x for x in self.required_fields])) # Check for fields to be ignored... not_ignored_fields = [x for x in headerfields if not x.startswith('--')] if len(set(not_ignored_fields)) < len(not_ignored_fields): raise FatalCSVError( "Double headers: each column name may only appear once.") return True def parentsExist(self, row, site): return 'students' in site.keys() def getLocator(self, row): if row.get('student_id',None) not in (None, IGNORE_MARKER): return 'student_id' elif row.get('reg_number',None) not in (None, IGNORE_MARKER): return 'reg_number' elif row.get('matric_number',None) not in (None, IGNORE_MARKER): return 'matric_number' else: return None # The entry never exists in create mode. def entryExists(self, row, site): return self.getEntry(row, site) is not None def getParent(self, row, site): return site['students'] def getEntry(self, row, site): if not 'students' in site.keys(): return None if self.getLocator(row) == 'student_id': if row['student_id'] in site['students']: student = site['students'][row['student_id']] return student elif self.getLocator(row) == 'reg_number': reg_number = row['reg_number'] cat = queryUtility(ICatalog, name='students_catalog') results = list( cat.searchResults(reg_number=(reg_number, reg_number))) if results: return results[0] elif self.getLocator(row) == 'matric_number': matric_number = row['matric_number'] cat = queryUtility(ICatalog, name='students_catalog') results = list( cat.searchResults(matric_number=(matric_number, matric_number))) if results: return results[0] return None def addEntry(self, obj, row, site): parent = self.getParent(row, site) parent.addStudent(obj) # Reset _curr_stud_id if student_id has been imported if self.getLocator(row) == 'student_id': parent._curr_stud_id -= 1 # We have to log this if state is provided. If not, # logging is done by the event handler handle_student_added if 'state' in row: parent.logger.info('%s - Student record created' % obj.student_id) history = IObjectHistory(obj) history.addMessage(_('Student record created')) return def delEntry(self, row, site): student = self.getEntry(row, site) if student is not None: parent = self.getParent(row, site) parent.logger.info('%s - Student removed' % student.student_id) del parent[student.student_id] pass def checkUpdateRequirements(self, obj, row, site): """Checks requirements the object must fulfill when being updated. This method is not used in case of deleting or adding objects. Returns error messages as strings in case of requirement problems. """ transition = row.get('transition', IGNORE_MARKER) if transition not in (IGNORE_MARKER, ''): allowed_transitions = IWorkflowInfo(obj).getManualTransitionIds() if transition not in allowed_transitions: return 'Transition not allowed.' if transition in FORBIDDEN_POSTGRAD_TRANS and \ obj.is_postgrad: return 'Transition not allowed (pg student).' state = row.get('state', IGNORE_MARKER) if state not in (IGNORE_MARKER, ''): if state in FORBIDDEN_POSTGRAD_STATES and \ obj.is_postgrad: return 'State not allowed (pg student).' return None def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ items_changed = '' # Remove student_id from row if empty if 'student_id' in row and row['student_id'] in (None, IGNORE_MARKER): row.pop('student_id') # Update password # XXX: Take DELETION_MARKER into consideration if 'password' in row: passwd = row.get('password', IGNORE_MARKER) if passwd not in ('', IGNORE_MARKER): if passwd.startswith('{SSHA}'): # already encrypted password obj.password = passwd else: # not yet encrypted password IUserAccount(obj).setPassword(passwd) items_changed += ('%s=%s, ' % ('password', passwd)) row.pop('password') # Update registration state if 'state' in row: state = row.get('state', IGNORE_MARKER) if state not in (IGNORE_MARKER, ''): value = row['state'] IWorkflowState(obj).setState(value) msg = _("State '${a}' set", mapping = {'a':value}) history = IObjectHistory(obj) history.addMessage(msg) items_changed += ('%s=%s, ' % ('state', state)) row.pop('state') if 'transition' in row: transition = row.get('transition', IGNORE_MARKER) if transition not in (IGNORE_MARKER, ''): value = row['transition'] IWorkflowInfo(obj).fireTransition(value) items_changed += ('%s=%s, ' % ('transition', transition)) row.pop('transition') # apply other values... items_changed += super(StudentProcessor, self).updateEntry( obj, row, site, filename) # Log actions... parent = self.getParent(row, site) if hasattr(obj,'student_id'): # Update mode: the student exists and we can get the student_id. # Create mode: the record contains the student_id parent.logger.info( '%s - %s - %s - updated: %s' % (self.name, filename, obj.student_id, items_changed)) else: # Create mode: the student does not yet exist # XXX: It seems that this never happens because student_id # is always set. parent.logger.info( '%s - %s - %s - imported: %s' % (self.name, filename, obj.student_id, items_changed)) return items_changed def getMapping(self, path, headerfields, mode): """Get a mapping from CSV file headerfields to actually used fieldnames. """ result = dict() reader = csv.reader(open(path, 'rb')) raw_header = reader.next() for num, field in enumerate(headerfields): if field not in ['student_id', 'reg_number', 'matric_number' ] and mode == 'remove': continue if field == u'--IGNORE--': # Skip ignored columns in failed and finished data files. continue result[raw_header[num]] = field return result def checkConversion(self, row, mode='create'): """Validates all values in row. """ iface = self.iface if mode in ['update', 'remove']: if self.getLocator(row) == 'reg_number': iface = self.iface_byregnumber elif self.getLocator(row) == 'matric_number': iface = self.iface_bymatricnumber converter = IObjectConverter(iface) errs, inv_errs, conv_dict = converter.fromStringDict( row, self.factory_name, mode=mode) # We cannot import both state and transition. if 'transition' in row and 'state' in row: if row['transition'] not in (IGNORE_MARKER, '') and \ row['state'] not in (IGNORE_MARKER, ''): errs.append(('workflow','not allowed')) return errs, inv_errs, conv_dict if 'transition' in row: if row['transition'] not in IMPORTABLE_TRANSITIONS: if row['transition'] not in (IGNORE_MARKER, ''): errs.append(('transition','not allowed')) if 'state' in row: if row['state'] not in IMPORTABLE_STATES: if row['state'] not in (IGNORE_MARKER, ''): errs.append(('state','not allowed')) else: # State is an attribute of Student and must not # be changed if empty. conv_dict['state'] = IGNORE_MARKER try: # Correct stud_id counter. As the IConverter for students # creates student objects that are not used afterwards, we # have to fix the site-wide student_id counter. site = grok.getSite() students = site['students'] students._curr_stud_id -= 1 except (KeyError, TypeError, AttributeError): pass return errs, inv_errs, conv_dict class StudentProcessorBase(BatchProcessor): """A base for student subitem processor. Helps reducing redundancy. """ grok.baseclass() # additional available fields # beside 'student_id', 'reg_number' and 'matric_number' additional_fields = [] # additional required fields (subset of additional_fields) additional_fields_required = [] @property def available_fields(self): fields = ['student_id','reg_number','matric_number' ] + self.additional_fields return sorted(list(set(fields + getFields( self.iface).keys()))) def checkHeaders(self, headerfields, mode='ignore'): if not 'reg_number' in headerfields and not 'student_id' \ in headerfields and not 'matric_number' in headerfields: raise FatalCSVError( "Need at least columns student_id " + "or reg_number or matric_number for import!") for name in self.additional_fields_required: if not name in headerfields: raise FatalCSVError( "Need %s for import!" % name) # Check for fields to be ignored... not_ignored_fields = [x for x in headerfields if not x.startswith('--')] if len(set(not_ignored_fields)) < len(not_ignored_fields): raise FatalCSVError( "Double headers: each column name may only appear once.") return True def _getStudent(self, row, site): NON_VALUES = ['', IGNORE_MARKER] if not 'students' in site.keys(): return None if row.get('student_id', '') not in NON_VALUES: if row['student_id'] in site['students']: student = site['students'][row['student_id']] return student elif row.get('reg_number', '') not in NON_VALUES: reg_number = row['reg_number'] cat = queryUtility(ICatalog, name='students_catalog') results = list( cat.searchResults(reg_number=(reg_number, reg_number))) if results: return results[0] elif row.get('matric_number', '') not in NON_VALUES: matric_number = row['matric_number'] cat = queryUtility(ICatalog, name='students_catalog') results = list( cat.searchResults(matric_number=(matric_number, matric_number))) if results: return results[0] return None def parentsExist(self, row, site): return self.getParent(row, site) is not None def entryExists(self, row, site): return self.getEntry(row, site) is not None def checkConversion(self, row, mode='ignore'): """Validates all values in row. """ converter = IObjectConverter(self.iface) errs, inv_errs, conv_dict = converter.fromStringDict( row, self.factory_name, mode=mode) return errs, inv_errs, conv_dict def getMapping(self, path, headerfields, mode): """Get a mapping from CSV file headerfields to actually used fieldnames. """ result = dict() reader = csv.reader(open(path, 'rb')) raw_header = reader.next() for num, field in enumerate(headerfields): if field not in ['student_id', 'reg_number', 'matric_number', 'p_id', 'code', 'level' ] and mode == 'remove': continue if field == u'--IGNORE--': # Skip ignored columns in failed and finished data files. continue result[raw_header[num]] = field return result class StudentStudyCourseProcessor(StudentProcessorBase): """The Student Study Course Processor imports data which refer to the student's course of study. The study course container data describe the current state of the course of study and it stores the entry conditions, i.e. when the student started the course. Most important is the `certificate` attribute which tells us which course the student is studying. The terms 'study course' and 'course of study' are used synonymously. The 'certificate' is the study programme described in the acadmic section. The study course object stores a referrer to a certificate in the acadmic section. When importing a new certificate code, `checkConversion` does not only check whether a certificate with the same code exists, it also proves if `current_level` is inside the level range of the certificate. For example, some study programmes start at level 200. The imported current level must thus be 200 or higher. `checkUpdateRequirements` looks up if the imported values match the certificate already stored with the study course object. The imported `current_level` must be in the range of the certificate already stored. .. note:: The processor does only offer an update mode. An 'empty' study course object is automatically created when the student object is added. So this object always exists. It can neither be added a second time nor be removed. Students can be transferred by import. A transfer is initialized if the `entry_mode` value is ``transfer``. In this case `checkConversion` uses a different interface for data validation and `checkUpdateRequirements` ensures that a student can only be transferred twice. The student transfer process is described elsewhere. """ grok.implements(IBatchProcessor) grok.provides(IBatchProcessor) grok.context(Interface) util_name = 'studycourseupdater' grok.name(util_name) name = _('StudentStudyCourse Processor (update only)') iface = IStudentStudyCourse iface_transfer = IStudentStudyCourseTransfer factory_name = 'waeup.StudentStudyCourse' def getParent(self, row, site): return self._getStudent(row, site) def getEntry(self, row, site): student = self.getParent(row, site) if student is None: return None return student.get('studycourse') def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ entry_mode = row.get('entry_mode', None) certificate = row.get('certificate', None) current_session = row.get('current_session', None) student = self.getParent(row, site) if entry_mode == 'transfer': # We do not expect any error here since we # checked all constraints in checkConversion and # in checkUpdateRequirements student.transfer( certificate=certificate, current_session=current_session) obj = student['studycourse'] items_changed = super(StudentStudyCourseProcessor, self).updateEntry( obj, row, site, filename) student.__parent__.logger.info( '%s - %s - %s - updated: %s' % (self.name, filename, student.student_id, items_changed)) # Update the students_catalog notify(grok.ObjectModifiedEvent(student)) return def checkConversion(self, row, mode='ignore'): """Validates all values in row. """ # We have to use the correct interface. Transfer # updates have different constraints. entry_mode = row.get('entry_mode', None) if entry_mode == 'transfer': converter = IObjectConverter(self.iface_transfer) else: converter = IObjectConverter(self.iface) errs, inv_errs, conv_dict = converter.fromStringDict( row, self.factory_name, mode=mode) # We have to check if current_level is in range of certificate. if 'certificate' in conv_dict and 'current_level' in conv_dict: cert = conv_dict['certificate'] level = conv_dict['current_level'] if level < cert.start_level or level > cert.end_level+120: errs.append(('current_level','not in range')) return errs, inv_errs, conv_dict def checkUpdateRequirements(self, obj, row, site): """Checks requirements the object must fulfill when being updated. Returns error messages as strings in case of requirement problems. """ certificate = getattr(obj, 'certificate', None) entry_session = getattr(obj, 'entry_session', None) current_level = row.get('current_level', None) entry_mode = row.get('entry_mode', None) # We have to ensure that the student can be transferred. if entry_mode == 'transfer': if certificate is None or entry_session is None: return 'Former study course record incomplete.' if 'studycourse_1' in obj.__parent__.keys() and \ 'studycourse_2' in obj.__parent__.keys(): return 'Maximum number of transfers exceeded.' if current_level: if current_level == 999 and \ obj.__parent__.state in FORBIDDEN_POSTGRAD_STATES: return 'Not a pg student.' cert = row.get('certificate', None) if certificate is None and cert is None: return 'No certificate to check level.' if certificate is not None and cert is None and ( current_level < certificate.start_level or \ current_level > certificate.end_level+120): return 'current_level not in range.' return None class StudentStudyLevelProcessor(StudentProcessorBase): """The Student Study Level Processor imports study level data. It overwrites the container attributes but not the content of the container, i.e. the course tickets stored inside the container. There is nothing special about this processor. """ grok.implements(IBatchProcessor) grok.provides(IBatchProcessor) grok.context(Interface) util_name = 'studylevelprocessor' grok.name(util_name) name = _('StudentStudyLevel Processor') iface = IStudentStudyLevel factory_name = 'waeup.StudentStudyLevel' @property def available_fields(self): fields = super(StudentStudyLevelProcessor, self).available_fields fields.remove('total_credits') fields.remove('gpa') return fields def getParent(self, row, site): student = self._getStudent(row, site) if student is None: return None return student['studycourse'] def getEntry(self, row, site): studycourse = self.getParent(row, site) if studycourse is None: return None return studycourse.get(str(row['level'])) def delEntry(self, row, site): studylevel = self.getEntry(row, site) parent = self.getParent(row, site) if studylevel is not None: student = self._getStudent(row, site) student.__parent__.logger.info('%s - Level removed: %s' % (student.student_id, studylevel.__name__)) del parent[studylevel.__name__] return def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ items_changed = super(StudentStudyLevelProcessor, self).updateEntry( obj, row, site, filename) student = self.getParent(row, site).__parent__ student.__parent__.logger.info( '%s - %s - %s - updated: %s' % (self.name, filename, student.student_id, items_changed)) return def addEntry(self, obj, row, site): parent = self.getParent(row, site) parent[str(row['level'])] = obj return class CourseTicketProcessor(StudentProcessorBase): """The Course Ticket Processor imports course tickets, the subobjects of student study levels (= course lists). An imported course ticket contains a copy of the original course data. During import only a few attributes can be set/overwritten. Like all other student data importers, this processor also requires either `student_id`, `reg_number` or `matric_number` to find the student. Then it needs `level` and `code` to localize the course ticket. `checkConversion` first searches the courses catalog for the imported `code` and ensures that a course with such a code really exists in the academic section. It furthermore checks if `level_session` in the row corresponds with the session of the parent student study level object. It fails if one of the conditions is not met. In create mode `fcode`, `dcode`, `title`, `credits`, `passmark` and `semester` are taken from the course found in the academic section. These attributes can nevermore be changed, neither via the user interface nor by import. """ grok.implements(IBatchProcessor) grok.provides(IBatchProcessor) grok.context(Interface) util_name = 'courseticketprocessor' grok.name(util_name) name = _('CourseTicket Processor') iface = ICourseTicketImport factory_name = 'waeup.CourseTicket' additional_fields = ['level', 'code'] additional_fields_required = additional_fields @property def available_fields(self): fields = [ 'student_id','reg_number','matric_number', 'mandatory', 'score', 'carry_over', 'automatic', 'level_session' ] + self.additional_fields return sorted(fields) def getParent(self, row, site): student = self._getStudent(row, site) if student is None: return None return student['studycourse'].get(str(row['level'])) def getEntry(self, row, site): level = self.getParent(row, site) if level is None: return None return level.get(row['code']) def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ items_changed = super(CourseTicketProcessor, self).updateEntry( obj, row, site, filename) parent = self.getParent(row, site) student = self.getParent(row, site).__parent__.__parent__ student.__parent__.logger.info( '%s - %s - %s - %s - updated: %s' % (self.name, filename, student.student_id, parent.level, items_changed)) return def addEntry(self, obj, row, site): parent = self.getParent(row, site) catalog = getUtility(ICatalog, name='courses_catalog') entries = list(catalog.searchResults(code=(row['code'],row['code']))) obj.fcode = entries[0].__parent__.__parent__.__parent__.code obj.dcode = entries[0].__parent__.__parent__.code obj.title = entries[0].title #if getattr(obj, 'credits', None) is None: obj.credits = entries[0].credits #if getattr(obj, 'passmark', None) is None: obj.passmark = entries[0].passmark obj.semester = entries[0].semester parent[row['code']] = obj return def delEntry(self, row, site): ticket = self.getEntry(row, site) parent = self.getParent(row, site) if ticket is not None: student = self._getStudent(row, site) student.__parent__.logger.info('%s - Course ticket in %s removed: %s' % (student.student_id, parent.level, ticket.code)) del parent[ticket.code] return def checkConversion(self, row, mode='ignore'): """Validates all values in row. """ errs, inv_errs, conv_dict = super( CourseTicketProcessor, self).checkConversion(row, mode=mode) if mode == 'remove': return errs, inv_errs, conv_dict # In update and create mode we have to check if course really exists. # This is not done by the converter. catalog = getUtility(ICatalog, name='courses_catalog') entries = catalog.searchResults(code=(row['code'],row['code'])) if len(entries) == 0: errs.append(('code','non-existent')) return errs, inv_errs, conv_dict # If level_session is provided in row we have to check if # the parent studylevel exists and if its level_session # attribute corresponds with the expected value in row. level_session = conv_dict.get('level_session', IGNORE_MARKER) if level_session not in (IGNORE_MARKER, None): site = grok.getSite() studylevel = self.getParent(row, site) if studylevel is not None: if studylevel.level_session != level_session: errs.append(('level_session','does not match %s' % studylevel.level_session)) else: errs.append(('level object','does not exist')) return errs, inv_errs, conv_dict class StudentOnlinePaymentProcessor(StudentProcessorBase): """The Student Online Payment Processor imports student payment tickets. The tickets are located in the ``payments`` subfolder of the student container. The only additional locator is `p_id`, the object id. The `checkConversion` method checks the format of the payment identifier. In create mode it does also ensures that same p_id does not exist elsewhere. It must be portal-wide unique. When adding a payment ticket, the `addEntry` method checks if the same payment has already been made. It compares `p_category` and `p_session` in the row with the corresponding attributes of existing payment tickets in state ``paid``. If they match, a `DuplicationError` is raised. """ grok.implements(IBatchProcessor) grok.provides(IBatchProcessor) grok.context(Interface) util_name = 'paymentprocessor' grok.name(util_name) name = _('StudentOnlinePayment Processor') iface = IStudentOnlinePayment factory_name = 'waeup.StudentOnlinePayment' additional_fields = ['p_id'] @property def available_fields(self): af = super( StudentOnlinePaymentProcessor, self).available_fields af.remove('display_item') return af def checkHeaders(self, headerfields, mode='ignore'): super(StudentOnlinePaymentProcessor, self).checkHeaders(headerfields) if mode in ('update', 'remove') and not 'p_id' in headerfields: raise FatalCSVError( "Need p_id for import in update and remove modes!") return True def parentsExist(self, row, site): return self.getParent(row, site) is not None def getParent(self, row, site): student = self._getStudent(row, site) if student is None: return None return student['payments'] def getEntry(self, row, site): payments = self.getParent(row, site) if payments is None: return None p_id = row.get('p_id', None) if p_id in (None, IGNORE_MARKER): return None # We can use the hash symbol at the end of p_id in import files # to avoid annoying automatic number transformation # by Excel or Calc p_id = p_id.strip('#') if len(p_id.split('-')) != 3 and not p_id.startswith('p'): # For data migration from old SRP only p_id = 'p' + p_id[7:] + '0' entry = payments.get(p_id) return entry def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ items_changed = super(StudentOnlinePaymentProcessor, self).updateEntry( obj, row, site, filename) student = self.getParent(row, site).__parent__ student.__parent__.logger.info( '%s - %s - %s - updated: %s' % (self.name, filename, student.student_id, items_changed)) return def samePaymentMade(self, student, category, p_session): for key in student['payments'].keys(): ticket = student['payments'][key] if ticket.p_state == 'paid' and\ ticket.p_category == category and \ ticket.p_session == p_session and \ ticket.p_item != 'Balance': return True return False def addEntry(self, obj, row, site): parent = self.getParent(row, site) student = parent.student p_id = row['p_id'].strip('#') # Requirement added on 19/02/2015: same payment must not exist. if self.samePaymentMade(student, obj.p_category, obj.p_session): student.__parent__.logger.info( '%s - %s - previous update cancelled' % (self.name, student.student_id)) raise DuplicationError('Same payment has already been made.') if len(p_id.split('-')) != 3 and not p_id.startswith('p'): # For data migration from old SRP obj.p_id = 'p' + p_id[7:] + '0' parent[obj.p_id] = obj else: parent[p_id] = obj return def delEntry(self, row, site): payment = self.getEntry(row, site) parent = self.getParent(row, site) if payment is not None: student = self._getStudent(row, site) student.__parent__.logger.info('%s - Payment ticket removed: %s' % (student.student_id, payment.p_id)) del parent[payment.p_id] return def checkConversion(self, row, mode='ignore'): """Validates all values in row. """ errs, inv_errs, conv_dict = super( StudentOnlinePaymentProcessor, self).checkConversion(row, mode=mode) # We have to check p_id. p_id = row.get('p_id', None) if mode == 'create' and p_id in (None, IGNORE_MARKER): timestamp = ("%d" % int(time()*10000))[1:] p_id = "p%s" % timestamp conv_dict['p_id'] = p_id return errs, inv_errs, conv_dict elif p_id in (None, IGNORE_MARKER): errs.append(('p_id','missing')) return errs, inv_errs, conv_dict else: p_id = p_id.strip('#') if p_id.startswith('p'): if not len(p_id) == 14: errs.append(('p_id','invalid length')) return errs, inv_errs, conv_dict elif len(p_id.split('-')) == 3: # The SRP used either pins as keys ... if len(p_id.split('-')[2]) not in (9, 10): errs.append(('p_id','invalid pin')) return errs, inv_errs, conv_dict else: # ... or order_ids. if not len(p_id) == 19: errs.append(('p_id','invalid format')) return errs, inv_errs, conv_dict # Requirement added on 24/01/2015: p_id must be portal-wide unique. if mode == 'create': cat = getUtility(ICatalog, name='payments_catalog') results = list(cat.searchResults(p_id=(p_id, p_id))) if len(results) > 0: sids = [IPayer(payment).id for payment in results] sids_string = '' for id in sids: sids_string += '%s ' % id errs.append(('p_id','p_id exists in %s' % sids_string)) return errs, inv_errs, conv_dict return errs, inv_errs, conv_dict class StudentVerdictProcessor(StudentStudyCourseProcessor): """The Student Verdict Processor inherits from the Student Study Course Processor. It's a pure updater. Import step 2 raises a warning message if a datacenter manager tries to select another mode. But it does more than only overwriting study course attributes. The Student Verdict Processor is the only processor which cannot be used for restoring data. Purpose is to announce a verdict at the end of each academic session. The processor does not only import a verdict, it also conditions the student data so that the student can pay for the next session and proceed to the next study level. The `checkUpdateRequirements` method ensures that the imported data really correspond to the actual state of the student. `current_level` and `current_session` in the row must be on par with the attributes of the study course object. Thus, the processor does not use these values to overwrite the attributes of the study course but to control that the verdict is really meant for the current session of the student. The verdict is only imported if a corresponding study level object exists and the student is in the right registration state, either ``courses validated`` or ``courses registered``. Course registration can be bypassed by setting `bypass_validation` to ``True``. The `updateEntry` method does not only update the current verdict of the student study course, it also updates the matching student study level object. It saves the current verdict as `level_verdict` and sets the `validated_by` and `validation_date` attributes, whereas `validated_by` is taken from the row of the import file and `validation_date` is set to the actual UTC datetime. Finally, the student is moved to state ``returning``. """ util_name = 'verdictupdater' grok.name(util_name) name = _('Verdict Processor (special processor, update only)') iface = IStudentVerdictUpdate factory_name = 'waeup.StudentStudyCourse' def checkUpdateRequirements(self, obj, row, site): """Checks requirements the studycourse and the student must fulfill before being updated. """ # Check if current_levels correspond if obj.current_level != row['current_level']: return 'Current level does not correspond.' # Check if current_sessions correspond if obj.current_session != row['current_session']: return 'Current session does not correspond.' # Check if new verdict is provided if row['current_verdict'] in (IGNORE_MARKER, ''): return 'No verdict in import file.' # Check if studylevel exists level_string = str(obj.current_level) if obj.get(level_string) is None: return 'Study level object is missing.' # Check if student is in state REGISTERED or VALIDATED if row.get('bypass_validation'): if obj.student.state not in (VALIDATED, REGISTERED): return 'Student in wrong state.' else: if obj.student.state != VALIDATED: return 'Student in wrong state.' return None def updateEntry(self, obj, row, site, filename): """Update obj to the values given in row. """ # Don't set current_session, current_level vals_to_set = dict((key, val) for key, val in row.items() if key not in ('current_session','current_level')) super(StudentVerdictProcessor, self).updateEntry( obj, vals_to_set, site, filename) parent = self.getParent(row, site) # Set current_verdict in corresponding studylevel level_string = str(obj.current_level) obj[level_string].level_verdict = row['current_verdict'] # Fire transition and set studylevel attributes # depending on student's state if obj.__parent__.state == REGISTERED: validated_by = row.get('validated_by', '') if validated_by in (IGNORE_MARKER, ''): portal_language = getUtility(IKofaUtils).PORTAL_LANGUAGE system = translate(_('System'),'waeup.kofa', target_language=portal_language) obj[level_string].validated_by = system else: obj[level_string].validated_by = validated_by obj[level_string].validation_date = datetime.utcnow() IWorkflowInfo(obj.__parent__).fireTransition('bypass_validation') else: IWorkflowInfo(obj.__parent__).fireTransition('return') # Update the students_catalog notify(grok.ObjectModifiedEvent(obj.__parent__)) return